XB-200 User Guide


The XB-200 is ideal for water monitoring applications requiring portability and quick deployment. With a UV stabilized polyethylene solar tower and hull, the buoy offers flexibility and toughness. The hull is filled with a lightweight, closed-cell polyurethane foam to keep the buoy afloat even if pierced or damaged.

 

Measurement System Verification

1. It is best to configure and test electronics on a lab bench prior to installation on the buoy.

2. When purchased with NexSens X-Series data loggers, refer to the following knowledge base articles for setup and integration:

NexSens X3: https://www.nexsens.com/knowledge-base-v2?cat=data-loggers&prod=x3

WQData Live: https://www.nexsens.com/knowledge-base-v2?cat=software&prod=wqdata-live

3. When the measurement system is fully functional, move on to the buoy assembly.

 

Buoy Assembly

Only basic hand tools and a few supplies are needed. Cable ties secure excess wire, and an anti-seize compound makes future field maintenance easy.

Tools and Supplies needed for the assembly of a NexSens XB-200 data buoy.

M550 Solar Marine Light

4. Remove the top plate from the solar tower.

Remove the three screws, lock washers, and flat washers from the solar tower top plate.

 

5. Activate the M550 beacon following the manufacturer’s guidelines.

6. Mount the beacon to one of the corner holes on the plate and tighten.

Install the solar marine light through the solar tower top plate and secure with a screw, lock washer, and flat washer.

 

X3 Data Logger

7. Mount the logger to the bottom side of the plate and secure it with the included hardware.

Connecting the NexSens data logger to the XB-200 solar tower lid using a screw, lock washer, and flat washer.

8. Install the antenna, ensuring the o-ring seal is in place.

Screwing in the telemetry antenna on an X3 data logger.

 

Solar Tower Removal

9. Removal of the solar tower makes sub-surface and hull-mounted sensor cable connections to the logger easy.

10. Unplug the solar panels from the power hub and remove the connecting hardware.

Remove the solar tower by unscrewing the six screws, flat washers, and lock washers securing the tower to the buoy.

11. For sensor-specific mounting, refer to the appropriate documents in the Knowledge Base.

https://www.nexsens.com/knowledge-base-v2/data-buoys/instrument-mounts

Deployment Pipe

For subsurface instrument deployments, the NexSens XB-200 Buoy Deployment Pipe Assembly can be used to protect sensors and make maintenance easy.

12. With the solar tower set aside, remove the pass-through port cap.

With the solar tower set aside, remove the pass-through port cap.

13. Remove the stop bolt at the bottom of the pipe.

Remove the stop bolt.

14. Lower the deployment pipe into the port.

Lower the deployment pipe into the port.

15. Reinstall the stop bolt.

Reinstall the stop bolt.

16. Plug the sensor cable in and lower the instrument into the deployment pipe.

Plug the sensor cable in and lower the instrument into the deployment pipe.

17. Reinstall the port cap.

Reinstall the cap.

Sensor Connections

18. Connect all sensors to their pre-determined port and the battery cable to the center port on the NexSens logger.

Plug the power cable in and then connect all sensor cables.

19. Before moving on, confirm all connections in WQData LIVE to ensure that the system is recording data properly.

20. Reinstall the solar tower and top plate.

1. Reinstall the solar tower using six flat washers, lock washers, and screws. 2. Reinstall the solar tower top plate using three flat washers, lock washers, and screws.

 

Instrument Cage

21. Lower the buoy onto its side and remove the preinstalled bolts and lock-washers on the bottom of the hull.

Remove the six screws and lock washers from the bottom of the XB-200 hull.

22. Attach the instrument cage and secure using the previously removed hardware.

Reinstall the six screws and lock washers through the cage mount into the bottom of the XB-200 data buoy hull.

 

Zinc Anode

Zinc anodes are only necessary in saltwater applications and must be purchased separately. Skip to the next section if your system does not include a zinc anode.

23. Remove the two screws from the anode.

A top and bottom screw are removed from the sacrificial zinc anode.

24. Mount the anode to the instrument cage.

An anode is attached to the instrument cage.

 

BAL-15

25. Remove the cotter pin, castle nut and lock-washer and insert the threaded rod assembly through the instrument cage.

A ballast weight being secured on the bottom of a NexSens instrument cage.

 

26. Secure the BAL-15 in place with the previously removed hardware and cotter pin.

The ballast is being secured using the castle nut, lock-washer, and cotter pin. The longer leg of the cotter pin is bent after insertion.

 

Deployment and Mooring Notes

Visit the links below for mooring and deployment tips.

nexsens.com/deptip

nexsens.com/mooringdb

 

Maintenance

As a general practice, measurement data, battery voltage, and other diagnostics (humidity, telemetry signal strength, etc.) should be monitored daily. Alert notifications for data and system functions can be used to detect anomalies and provide early warning that maintenance is required.

Barring damage from extreme sea state, the XB-200 provides months of maintenance-free service when properly assembled and rigged. Most freshwater deployments should provide a full season of trouble-free performance, while saltwater-deployed systems may need to be periodically inspected for marine growth and damage from severe weather events.

Sensors and electronics may require more frequent maintenance and calibration; refer to the manufacturer’s recommendations for guidelines.

 

Inspect the Vent

The vent releases pressure that may build up inside the battery well. This can occur from temperature changes and battery off-gassing. It is factory set for a 5 PSI differential pressure, but obstruction of the vent can lead to a gas buildup.

1. Clean the outside of the vent and do not allow debris or animal droppings to accumulate.

WARNING: Sealed lead-acid batteries can be dangerous if they off-gas, producing hydrogen and oxygen, which are explosive. Under normal charging, the batteries emit very little gas, but a system malfunction could lead to overheating and off-gassing. An overheated or off-gassing battery should be replaced immediately.

Always vent the battery well by ensuring the vent is not obstructed and remove the lid manually (without power tools), allowing any trapped gases to escape. Never grind, cut, drill or use any flame on or near the battery well.

 

2. If needed, order a vent replacement and follow the procedure in the repair manual.

 

Battery Maintenance

The buoys are powered by solar-charged, 12VDC sealed lead-acid (SLA) batteries with a typical life of 3 to 5 years. To prolong the battery life, keep the battery voltage above 11.5VDC. When the battery performance degrades, charge or replace the batteries.

1. Regularly check the battery voltage. If paired with a NexSens logger, battery voltage can be viewed on WQData LIVE.

2. When solar energy is unavailable (winter storage), consider disconnecting the batteries or charging them using the XB-Series battery float charger.

3. Visually inspect batteries annually for signs of corrosion, loose connections, or physical damage. Addressing these issues promptly can prevent more significant problems in the future.

  1. If the terminals are showing signs of corrosion, clean connections with a baking soda and water solution.
  2. Ensure that the mounting hardware is secure, and refer to the repair manual if needed.

4. If the batteries continue to drop below 11.5V, they should be replaced by a qualified technician with experience in low-voltage, high-current systems. See the repair manual for parts and procedures.

 

Desiccant Replacement

Desiccant is used to absorb the humidity and should be replaced annually or anytime the well is opened.

1. Remove the battery well lid and replace the desiccant.

Removal of the XB-200 data/battery well lid followed by a new desiccant packet being placed in the battery well. The text reads: 1. Remove battery well lid; 2. Replace desiccant.

2. Check that the gasket is clean and undamaged, and reinstall the lid, being careful to avoid trapping the cable under the lid. If the gasket lubricant is no longer in place, apply a thin film.

Reapplying silicone-based grease to the O-ring seal of the battery well. The text reads: If the original grease is gone or the O-ring is dirty, remove and clean it before applying new grease.

 

Clean and Inspect the Solar Tower

1. Before cleaning the solar tower, be sure all sensors and power cables are connected or covered with a waterproof cap or tape.

Examples of cable connector being properly capped or taped.

2. Clean the solar tower and panels of debris and animal/bird droppings using dish detergent and a soft cloth. A brush can be used on parts of the solar tower, but not on the panels.

*Note* Be careful not to use aggressive cleaning techniques or high-pressure water on the solar panel face. The outer layer is a thin polymer film that can be damaged.

3. Inspect the tower and topside equipment for damage. Look for abrasions and any green (copper oxide) corrosion inside the thin outer film of the solar panels. This is a sign that the panel was damaged, and it should be replaced. See the repair manual for parts and procedures.

 

Clean and Inspect Installed Sensors and Cables

1. Unplug solar charging and power to all electronics.

Unplug all power and electronics.

2. Clean and inspect any topside and submersible sensors and cables.

3. Test and recalibrate following the manufacturer’s recommendations.

4. Remove trapped moisture and particulates with compressed air.

A can of compressed air is being used to remove particulates from the connectors.

5. Before reconnecting, apply a thin film of silicone grease.

A thin film of silicone grease is being applied to the rubber part of the pins to aid with insertion.

 

Cleaning the Buoy

The buoy should be cleaned at least annually or more often if needed. Marine growth can accumulate and weigh the buoy down, reducing the amount of buoyancy and freeboard.

1. Pull the buoy from the water and pressure wash all bottom-side components, including the hull, frame, cage, ballast, mooring lines, chains, hardware, sensors, and electrical cables.

 

Anode Replacement

If the buoy is deployed in salt or brackish water, regular zinc anode maintenance is essential. Without it, stainless components, starting with weld joints and crevices, will corrode until failure.

1. Regularly inspect the anodes and replace annually or as needed.

  1. Replacement part number CB-ZA.

2. Remove the old anodes and follow the Zinc Anode instructions in the Buoy Assembly section for replacement.

 

Final Inspection – Subsurface Components

1. Before moving on, inspect all electrical and mooring lines and connections. Look for cable chafing, worn components (such as shackles, thimbles, wire rope, anchor connection, crimps, cotter pins, cinching wire or ties, etc.). Repair and replace as needed.

Example of a cable that has been damaged and needs to be replaced.

 

Storage

1. Before putting the buoy in storage, follow the cleaning and maintenance steps and the manufacturer’s recommendations for sensors and electronics storage.

2. To ensure the batteries are not drained over time, disconnect the power and solar cables from the battery well. Alternatively, use the XB-Series battery float charger to keep the batteries charged.

  1. *Note* Disconnecting from the data logger and the power hub will not fully power down the system. The solar regulator will continue pulling a small amount of power (~3 mA) from the internal batteries. To completely power down all components, remove the battery well lid and disconnect the Molex connection inside. Otherwise, it is recommended to take the buoy outside for a full day of charging every couple of months.

Unplug all power and electronics.

Left is one side of the XB-200 power hub and right is the opposite side. The left side shows a solar input port and the power output port. The right shows two solar ports.

 

Troubleshooting

See the repair manual for troubleshooting and replacement procedures. Data logging and sensor troubleshooting can be found in the knowledge base.

Error or Problem Potential Causes Solutions
Insufficient power – short battery life Batteries beyond useful life (3 to 5 years) Replace batteries
Elevated power consumption Select sensors with lower power needs
Insufficient power – solar panel failure Debris or animal droppings partially covering solar panels Clean the panels and watch for improvement in the battery voltage data for a few days.
Solar panel failure Replace the solar panel
Insufficient power – failed solar regulator Voltage surge damaged the regulator Replace the regulator
Breached buoy hull Collision or impact Replace the buoy hull

 

Checking Battery Voltage

Check the output voltage of the battery by measuring between Pins 1 and 3 of the assembly’s UW-6 plug connector coming from the power hub. Test the voltage both in and out of direct sunlight to fully assess the functionality of the solar tower.

Healthy operational voltages range from 12-15V. The voltage depends on the amount of direct sunlight and the age/health of the installed battery.

Measure the voltage between Pins 1 and 3 of the pack’s UW-6 plug connector.

 

NexSens Warranty

View the NexSens Warranty.

 

NexSens Service Request

To return equipment for evaluation and repair, visit this page for more information.